aoc-all

My solutions to all Advent of Code
git clone https://git.instinctive.eu/aoc-all.git
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day11-bigint-wrong.ps (12879B)


      1 %!PS
      2 %
      3 % Copyright (c) 2022, Natacha Porté
      4 %
      5 % Permission to use, copy, modify, and distribute this software for any
      6 % purpose with or without fee is hereby granted, provided that the above
      7 % copyright notice and this permission notice appear in all copies.
      8 %
      9 % THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
     10 % WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
     11 % MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
     12 % ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
     13 % WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
     14 % ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
     15 % OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
     16 %
     17 % Usage:
     18 % gs -q- -sDEVICE=png16m -o- day11.ps <day11.txt | display
     19 
     20 % each monkey is represented by an array:
     21 % [ item-worry-array
     22 %   operation-proc
     23 %   test-proc
     24 %   monkey-index-true
     25 %   monkey-index-false ]
     26 
     27 % bigints are arrays of limbs, least significant first
     28 
     29 % WARNING:
     30 % this produces wrong results, so there is probably
     31 % a bug in some corner case here.
     32 
     33 /radix 100 def
     34 
     35 /datafile (%stdin) (r) file def
     36 /stderr (%stderr) (w) file def
     37 
     38 % [ item_1 ... item_n ] item_0 -> [ item_0 item_1 ... item_n ]
     39 /apush {
     40   % array new_item
     41   exch aload length 1 add array astore
     42 } bind def
     43 
     44 % [ item_0 ... item_n-1 ] item_n -> [ item_0 item_1 ... item_n ]
     45 /aappend {
     46   exch aload length
     47   % new-item item-0 item-1 ... item-n-1 n
     48   dup dup 2 add exch 1 add roll
     49   % item-0 item-1 ... item-n-1 n new-item
     50   exch
     51   % item-0 item-1 ... item-n-1 new-item n
     52   1 add array astore
     53 } bind def
     54 
     55 % [ item_0 item_1 ... item_n ] -> [ item_1 ... item_n ] item_0
     56 /apop {
     57   aload length 1 sub array astore exch
     58 } bind def
     59 
     60 % file bigint -> ø
     61 /writebigint {
     62   1 index ([) writestring
     63   {
     64     % file limb
     65     1 index 32 write
     66     % file (limb)
     67     15 string cvs
     68     % file (limb)
     69     1 index exch
     70     % file file (limb)
     71     writestring
     72     % file
     73   } forall
     74   ( ]) writestring
     75 } bind def
     76 
     77 % bigint factor carry -> bigint
     78 /bigaddmul {
     79   % bigint factor carry
     80   2 index aload length array astore
     81   % bigint factor carry bigint-copy
     82   4 1 roll 3 2 roll pop
     83   % bigint-copy factor carry
     84   0 {
     85     % bigint factor carry index
     86     3 index length 1 index le
     87     % bigint factor carry index overflow?
     88     { pop
     89       % bigint factor carry
     90       dup 0 eq
     91       { pop pop }
     92       { exch pop aappend }
     93       ifelse
     94       % bigint
     95       exit
     96     } if
     97     % bigint factor carry index
     98     exch 3 index 2 index get
     99     % bigint factor index carry cur-limb
    100     3 index mul
    101     % bigint factor index carry temp-product
    102     add
    103     % bigint factor index result
    104     dup radix mod
    105     % bigint factor index result new-limb
    106     exch radix idiv
    107     % bigint factor index new-limb new-carry
    108     3 1 roll
    109     % bigint factor new-carry index new-limb
    110     4 index 2 index 2 index put
    111     % updated-bigint factor new-carry index new-limb
    112     pop
    113     % updated-bigint factor new-carry index
    114     1 add
    115     % updated-bigint factor new-carry next-index
    116   } loop
    117 } bind def
    118 
    119 % bigint int -> bigint
    120 /bigadd { 1 exch bigaddmul } bind def
    121 /vbigadd {
    122   1 index stderr exch writebigint
    123   stderr ( + ) writestring
    124   dup 15 string cvs stderr exch writestring
    125   stderr ( = ) writestring
    126   bigadd
    127   dup stderr exch writebigint
    128   stderr 10 write
    129 } bind def
    130 
    131 % bigint int -> bigint
    132 /bigmul { 0 bigaddmul } bind def
    133 /vbigmul {
    134   1 index stderr exch writebigint
    135   stderr ( * ) writestring
    136   dup 15 string cvs stderr exch writestring
    137   stderr ( = ) writestring
    138   bigmul
    139   dup stderr exch writebigint
    140   stderr 10 write
    141 } bind def
    142 
    143 % bigint factor index -> bigint
    144 /bigbigmulpart {
    145   dup 0 eq
    146   { bigaddmul }
    147   {
    148     % bigint factor index
    149     2 index 0 2 index getinterval
    150     % bigint factor index prefix
    151     3 index 2 index
    152     % bigint factor index prefix bigint index
    153     1 index length 1 index sub getinterval
    154     % bigint factor index prefix suffix
    155     3 index 0 bigaddmul
    156     % bigint factor index prefix new-suffix
    157     1 index length 1 index length add array
    158     % bigint factor index prefix new-suffix new-bigint
    159     6 1 roll 5 4 roll pop
    160     % new-bigint factor index prefix new-suffix
    161     4 index exch 3 index exch putinterval
    162     % new-bigint factor index prefix
    163     3 index exch 0 exch putinterval
    164     % new-bigint factor index
    165     pop pop
    166   } ifelse
    167 } bind def
    168 
    169 % bigint bigint -> bigint
    170 /bigbigmul {
    171   % bigint bigint
    172   1 index length 1 index length
    173   % bigint bigint len1 len2
    174   gt { exch } if
    175   % smaller-bigint larger-bigint
    176   0 1 3 index length 1 sub {
    177     % smaller-bigint accumulator-bigint index
    178     2 index 1 index get
    179     % smaller-bigint accumulator-bigint index factor
    180     exch bigbigmulpart
    181     % smaller-bigint accumulator-bigint
    182   } for
    183   % smaller-bigint result-bigint
    184   exch pop
    185   % result-bigint
    186 } bind def
    187 
    188 /vbigbigmul {
    189   1 index stderr exch writebigint
    190   stderr ( * ) writestring
    191   dup stderr exch writebigint
    192   stderr ( = ) writestring
    193   bigbigmul
    194   dup stderr exch writebigint
    195   stderr 10 write
    196 } bind def
    197 
    198 % dividand-bigint divisor-int -> quotient-bigint remainder-int
    199 /bigdivmod {
    200   % bigint divisor
    201   exch aload length array astore exch
    202   % bigint-copy divisor
    203   0 2 index length 1 sub -1 0 {
    204     % bigint divisor carry index
    205     exch radix mul
    206     % bigint divisor index multiplied-carry
    207     3 index 2 index get
    208     % bigint divisor index multiplied-carry cur-limb
    209     add
    210     % bigint divisor index cur-dividand
    211     dup 3 index mod
    212     % bigint divisor index cur-dividand cur-remainder
    213     exch 3 index idiv
    214     % bigint divisor index cur-remainder cur-quotient
    215     4 index exch 3 index exch put
    216     % updated-bigint divisor index cur-remainder
    217     exch pop
    218     % updated-bigint divisor next-carry
    219   } for
    220   % quotient-bigint divisor remainder
    221   exch pop exch
    222   % remainder quotient-bigint
    223   {
    224     % remainder quotient-bigint
    225     dup length 1 eq { exit } if
    226     % remainder quotient-bigint
    227     dup dup length 1 sub get
    228     % remainder quotient-bigint last-limb
    229     0 eq
    230     { aload
    231       length 1 sub array
    232       exch pop
    233       astore
    234     }
    235     { exit }
    236     ifelse
    237   } loop
    238   % remainder quotient-bigint
    239   exch
    240   % quotient-bigint remainder
    241 } bind def
    242 
    243 /vbigdivmod {
    244   1 index stderr exch writebigint
    245   stderr ( = ) writestring
    246   dup 15 string cvs stderr exch writestring
    247   stderr ( * ) writestring
    248   bigdivmod
    249   1 index stderr exch writebigint
    250   stderr ( + ) writestring
    251   dup 15 string cvs stderr exch writestring
    252   stderr 10 write
    253 } bind def
    254 
    255 % bigint int -> bigint
    256 /bigidiv { bigdivmod pop } bind def
    257 /vbigidiv { vbigdivmod pop } bind def
    258 
    259 % bigint int -> int
    260 /bigmod { bigdivmod exch pop } bind def
    261 /vbigmod { vbigdivmod exch pop } bind def
    262 
    263 
    264 /init-data [
    265   {
    266     datafile 100 string readline
    267     not { pop exit } if
    268 
    269     { %%% 1-iteration loop to use `exit` as a short circuit
    270       (Monkey ) anchorsearch {
    271         pop pop [ exit
    272       } if
    273 
    274       (  Starting items: ) anchorsearch {
    275         % (item, item, ..., item) match
    276         pop [ exch
    277         { % mark prev-items suffix
    278           (, ) search
    279           { % mark prev-items new-suffix (, ) (cur-item)
    280             exch pop cvi
    281             % mark prev-items new-suffix cur-item
    282             [ exch ]
    283             % mark prev-items new-suffix [cur-item]
    284             exch
    285             % mark prev-items cur-item new-suffix
    286           }
    287           { % mark prev-item (last-item)
    288             [ exch cvi ] ] exit
    289           }
    290           ifelse
    291         } loop
    292         % worry-array
    293         exit
    294       } if
    295 
    296       (  Operation: new = old ) anchorsearch {
    297         % (operator operand) match
    298         pop
    299         % (operator operand)
    300         dup (* old) eq
    301         { pop /dup load /bigbigmul load }
    302         {
    303           (* ) anchorsearch
    304           { pop /bigmul load exch }
    305           { (+ ) anchorsearch
    306             { pop /bigadd load exch }
    307             { 1.125 pstack quit }
    308             ifelse
    309           } ifelse
    310           % operator-proc (operand)
    311           cvi exch
    312         } ifelse
    313         % operand operator-proc
    314         /exec load 3 array astore cvx bind
    315         % operation-proc
    316         exit
    317       } if
    318 
    319       (  Test: divisible by ) anchorsearch {
    320         % (operand) match
    321         pop cvi
    322         % operand
    323         [ exch /bigmod load /exec load 0 /eq load ] cvx bind
    324         % test-proc
    325         exit
    326       } if
    327 
    328       (    If true: throw to monkey ) anchorsearch {
    329         % (monkey-index) match
    330         pop cvi exit
    331       } if
    332 
    333       (    If false: throw to monkey ) anchorsearch {
    334         % (monkey-index) match
    335         pop cvi ] exit
    336       } if
    337 
    338       dup length 0 eq { pop exit } if
    339 
    340       2.125 pstack quit
    341     } loop
    342   } loop
    343 ] def
    344 
    345 % data monkey-array divisor -> ø
    346 /single-turn {
    347   exch
    348   % data divisor monkey-array
    349   dup 0 get
    350   % data divisor monkey-array worry-item-array
    351   1 index 0 0 array put
    352   % data divisor updated-monkey-array worry-item-array
    353   {
    354     % data divisor monkey-array prev-cur-worry
    355     1 index 1 get
    356     % data divisor monkey-array prev-cur-worry operation-proc
    357     exec
    358     % data divisor monkey-array intermediate-cur-worry
    359     2 index dup 1 eq not { bigidiv } { pop } ifelse
    360     % data divisor monkey-array cur-worry
    361     dup 2 index 2 get
    362     % data divisor monkey-array cur-worry cur-worry test-proc
    363     exec
    364     % data divisor monkey-array cur-worry test-proc-result
    365     { 1 index 3 get }
    366     { 1 index 4 get }
    367     ifelse
    368     % data divisor monkey-array cur-worry target-monkey-index
    369     4 index exch get
    370     % data divisor monkey-array cur-worry target-monkey-array
    371     dup 0 get
    372     % data divisor monkey-array cur-worry target-monkey-array prev-target-worry-array
    373     3 2 roll aappend
    374     % data divisor monkey-array target-monkey-array updated-target-worry-array
    375     0 exch put
    376     % data divisor monkey-array
    377   } forall
    378   % data divisor monkey-array
    379   pop pop pop
    380 } bind def
    381 
    382 /dump-worry-levels {
    383   0
    384   data {
    385     % index monkey-array
    386     0 get
    387     % index worry-array
    388     stderr (Monkey ) writestring
    389     1 index 15 string cvs stderr exch writestring
    390     stderr (:) writestring
    391     % index worry-array
    392     {
    393       % index cur-worry-value
    394       stderr ( ) writestring
    395       15 string cvs stderr exch writestring
    396       % index
    397     } forall
    398     % index
    399     stderr 10 write
    400     % index
    401     1 add
    402     % next-index
    403   } forall
    404   pop
    405 } bind def
    406 
    407 % divisor round-count -> inspect-array
    408 /main-run {
    409   % divisor round-count
    410   [ init-data {
    411     % init-monkey-array
    412     dup length array copy
    413     % cur-monkey-array
    414     dup 0 get
    415     % cur-monkey-array init-worry-array
    416     dup length array copy
    417     % cur-monkey-array new-worry-array
    418     1 index exch 0 exch put
    419     % cur-monkey-array
    420   } forall ]
    421   % divisor round-count data-copy
    422   [ 1 index length { 0 } repeat ]
    423   % divisor round-count data-copy init-inspect-array
    424   3 2 roll
    425   % divisor data-copy init-inspect-array round-count
    426   0 5 1 roll
    427   % round-index divisor data-copy init-inspect-array round-count
    428   {
    429     % prev-round-index divisor data inspect-array
    430     4 3 roll 1 add
    431     stderr (Round ) writestring
    432     dup 15 string cvs stderr exch writestring
    433     stderr 10 write
    434     4 1 roll
    435     % round-index divisor data inspect-array
    436     0
    437     % divisor data inspect-array index
    438     2 index {
    439       % divisor data inspect-array index monkey-array
    440       dup 0 get length
    441       % divisor data inspect-array index monkey-array cur-worry-count
    442       3 index 3 index get add
    443       % divisor data inspect-array index monkey-array total-worry-count
    444       3 index 3 index 3 2 roll put
    445       % divisor data updated-inspect-array index monkey-array
    446       3 index exch 5 index
    447       % divisor data updated-inspect-array index data monkey-array divisor
    448       single-turn
    449       % divisor data updated-inspect-array index
    450       1 add
    451     } forall
    452     % divisor data updated-inspect-array index
    453     pop
    454     %%% dumps
    455     %dump-worry-levels
    456     %stderr 10 write
    457   } repeat
    458   % divisor data inspect-array
    459   3 1 roll pop pop
    460   % inspect-array
    461 } bind def
    462 
    463 % inspect-array -> inspect-array
    464 /dump-inspect-array {
    465   0 1 index {
    466     % index inspect-count
    467     stderr (Monkey ) writestring
    468     1 index 15 string cvs stderr exch writestring
    469     stderr (: ) writestring
    470     15 string cvs stderr exch writestring
    471     stderr 10 write
    472     1 add
    473   } forall
    474   pop
    475 } bind def
    476 
    477 % inspect-array -> business-index
    478 /business-index {
    479   % inspect-array
    480   0 0 3 2 roll
    481   % init-max init-second-max inspect-array
    482   {
    483     % max second-max cur-count
    484     2 index 1 index lt
    485     % max second-max cur-count is-new-max?
    486     { 3 1 roll pop
    487       % cur-count old-max
    488     }
    489     { 2 copy lt { exch } if pop }
    490     ifelse
    491     % updated-max updated-second-max
    492   } forall
    493   % max second-max
    494   mul
    495 } bind def
    496 
    497 
    498 /Helvetica 20 selectfont
    499 
    500 
    501 (First Puzzle: )
    502 72 700 moveto show
    503 3 20 main-run
    504 % inspect-array
    505 business-index
    506 15 string cvs show
    507 
    508 
    509 (Second Puzzle: )
    510 72 664 moveto show
    511 1 10000 main-run
    512 % inspect-array
    513 business-index
    514 15 string cvs show
    515 
    516 showpage
    517 quit